A brewing device (100) may be used to brew coffee or other brewable substances such as tea. The brewing device may include a housing (110) and one or more handles (120) for attaching the housing to a beverage container, such as a mug. The handles (120) may be moved between a stored and deployed position. The housing (110) may be porous and include a plurality of perforations (112) on each side. There may be about 70 perforations, with an even number distributed on each side of the housing, and the perforations may have a diameter of about 2.33 mm so as to permit the flow of oils and other elements of coffee which might otherwise be filtered through the housing material.

A brewing device (100) may be used to brew coffee or other brewable substances such as tea. The brewing device may include a housing (110) and one or more handles (120) for attaching the housing to a beverage container, such as a mug. The handles (120) may be moved between a stored and deployed position. The housing (110) may be porous and include a plurality of perforations (112) on each side. There may be about 70 perforations, with an even number distributed on each side of the housing, and the perforations may have a diameter of about 2.33 mm so as to permit the flow of oils and other elements of coffee which might otherwise be filtered through the housing material.

A biodegradable whole leaf pillow tea bag is provided, along with a system and method for manufacturing biodegradable whole leaf pillow tea bags. The method for manufacturing the whole leaf pillow tea bags includes the steps of providing a biodegradable infusion substrate having two opposing edge; creating a sleeve from the biodegradable infusion substrate by infusing the two opposing edges of the substrate together and closing the sleeve at its bottom; placing whole leaf tea in the bottom of the sleeve; vertically feeding the sleeve containing the whole leaf tea into a heat sealing machine that will, at predetermined intervals create heat seals across the sleeve to create pillow bags; cutting the pillow bags from one another across the heat seal. In one example, the biodegradable infusion substrate may contain hemp and/or the whole leaf tea may be infused with CBD oil or other supplements. The same method of manufacturing may be used to create a biodegradable pillow bag containing coffee.

A biodegradable whole leaf pillow tea bag is provided, along with a system and method for manufacturing biodegradable whole leaf pillow tea bags. The method for manufacturing the whole leaf pillow tea bags includes the steps of providing a biodegradable infusion substrate having two opposing edge; creating a sleeve from the biodegradable infusion substrate by infusing the two opposing edges of the substrate together and closing the sleeve at its bottom; placing whole leaf tea in the bottom of the sleeve; vertically feeding the sleeve containing the whole leaf tea into a heat sealing machine that will, at predetermined intervals create heat seals across the sleeve to create pillow bags; cutting the pillow bags from one another across the heat seal. In one example, the biodegradable infusion substrate may contain hemp and/or the whole leaf tea may be infused with CBD oil or other supplements. The same method of manufacturing may be used to create a biodegradable pillow bag containing coffee.

The invention is intended to solve the problem of squeezing and recycling of individual tea bags after their use, to enhance the aesthetic component of the process, as well as to be used as an advertising, information medium. In its original static state, the device has an elongated shape, presumably of a rectangular flat plate. After the device is folded in half, i.e. after the completion of its operation cycle, it acquires a different shape, presumably of a triangular, with four legs (the number is optional), fixing it to a surface, for example, a table. The used bag will be located inside the device, on any of its planes. Due to its low cost, a one-time and widespread use of the device is foreseen.

The invention is intended to solve the problem of squeezing and recycling of individual tea bags after their use, to enhance the aesthetic component of the process, as well as to be used as an advertising, information medium. In its original static state, the device has an elongated shape, presumably of a rectangular flat plate. After the device is folded in half, i.e. after the completion of its operation cycle, it acquires a different shape, presumably of a triangular, with four legs (the number is optional), fixing it to a surface, for example, a table. The used bag will be located inside the device, on any of its planes. Due to its low cost, a one-time and widespread use of the device is foreseen.

A drip bag including a bag body having an upper end to be opened and two opposing surfaces, and a pair of hook members provided on outer faces of the opposing surfaces and spaced apart from vertical side edges of the bag body. Each of the hook members including an upper stuck part adhered along an opening of the bag body, a center part located below the upper stuck part, and a hook part not adhered to the bag body. For each of the hook members, a pair of oblique folding lines are formed on the upper stuck part, and a vertical folding line is formed downwardly from a lower end of each oblique folding line, whereby, in use, at least the oblique folding lines and the vertical folding lines cause the outer faces of the bag body to protrude outward from a bottom end of the bag body.

A drip bag including a bag body having an upper end to be opened and two opposing surfaces, and a pair of hook members provided on outer faces of the opposing surfaces and spaced apart from vertical side edges of the bag body. Each of the hook members including an upper stuck part adhered along an opening of the bag body, a center part located below the upper stuck part, and a hook part not adhered to the bag body. For each of the hook members, a pair of oblique folding lines are formed on the upper stuck part, and a vertical folding line is formed downwardly from a lower end of each oblique folding line, whereby, in use, at least the oblique folding lines and the vertical folding lines cause the outer faces of the bag body to protrude outward from a bottom end of the bag body.

Provided is a bag knot structure including: a bag body part (10) formed in two layers, and configured to have closed three sides and have an open inlet; a first hole (21) located on one side of the top of the bag body part (10) and in proximity to the inlet, and formed through the bag body part (10); a second hole (22) located in proximity to the first hole (21), and formed through the bag body part (10); a third hole (23) spaced apart from the second hole (22), located on the other side of the top, and formed through the bag body part (10); and a knotting wire (30) disposed on the back surface of the bag body part (10); wherein parts of the knotting wire (30) are caused to form a first loop (31), a second loop (32), and a grip (34).

A drip bag has a body formed of a water permeable sheet, an openable upper end, and hook members formed of a plate-shaped material on outer faces of two opposing body surfaces. The hook member includes: an upper stuck part adhered to the body along its opening in an elongated shape; a center part located below the upper stuck part at the body center in its width direction not to be pulled out; and a hook part not adhered to the body. Two oblique folding lines are formed on the upper stuck part with a center line therebetween, and being more spaced from the center line while extending from a lower to an upper portion of the upper stuck part, the center line bisecting the body in its width direction. A vertical folding line is formed downwardly from immediately below a lower end of the oblique folding lines.